A mouse includes a lower shell, an upper shell covered on the lower shell, a circuit board and a pressing button. The upper shell is spaced from the lower shell to form an accommodating space between the lower shell and the upper shell. The upper shell has at least one elastic arm. The circuit board fastened in the accommodating space is equipped with at least one electronic switch corresponding to the at least one elastic arm. The at least one electronic switch has a touching element. The pressing button is covered on the upper shell. The pressing button has at least one touching board which protrudes downward to form at least one pressing block. The at least one elastic arm is received in the at least one pressing block. The at least one pressing block abuts against the touching element.

A touch sensing module includes a sensing coil, a metal portion disposed to be spaced apart from the sensing coil, and a first bracket having one surface, on which the metal portion is disposed, and an other surface, opposing the one surface, on which a pad having a capacitance, configured to vary as a touch is applied, is disposed.

A ring input device, and more particularly to variable rotational resistance mechanisms within the ring input device that modulate the rotational friction of a rotating outer band to improve the user experience, is disclosed. Because finger rings are often small and routinely worn, electronic finger rings can be employed as unobtrusive communication devices that are readily available to communicate wirelessly with other devices capable of receiving those communications. Ring input devices according to examples of the disclosure can modulate the rotational friction of its rotating outer band in accordance with an item (e.g., user interface or parameter) being manipulated by the band.

A touch key structure includes a touch panel including a key area at a front side of the touch panel, a circuit board provided behind the touch panel and including a sensing electrode corresponding to the key area, and a conductive medium provided between the key area and the sensing electrode.

A sensor unit manufacturing method includes: a core metal insertion process of inserting a core metal member having a length dimension smaller than a length dimension of a core metal accommodation portion into a predetermined location (a section of a curving portion) extending along a longitudinal direction of the core metal accommodation portion; and a bending process of bending the section (the section of the curving portion) of a fixation base portion, into which the core metal member is inserted, following a curved shape of a sensor bracket.

A switch device includes a main module, which includes at least one main electronic control circuit, connections to the electrical system of a building and/or to equipment or devices to be controlled, one or more touch sensors or contacts connected to the at least one main electronic control circuit, a main box-shaped housing element for the preceding components, and one or more systems that provide a reversible electric or electronic and mechanical connection of the main module to an accessory module.

An inductive force sensor includes a reference resonance circuit, a first resonance circuit, and a determination circuit configured to obtain information about a first resonant frequency, attributable to first inductance due to an inductive coil based on the displacement between a target and the inductive coil formed by an external force input in a Z-axis direction, and a reference resonant frequency. The determination circuit determines the displacement of the target and the external force in the Z-axis direction based on the first resonant frequency and the reference resonant frequency.

An air conditioning device for a vehicle and a method of controlling the same are provided. The air conditioning device includes a touch input unit which is configured to be touched, rotated by 360 degrees, and dragged by a user. A touch sensor unit includes three channel regions formed by trisecting a rotational region of 360 degrees and is configured to detect capacitance in accordance with touch areas of a first channel, a second channel, and a third channel at predetermined positions in the three channel regions. Three channel signal output units output signals from the respective channels in accordance with the recognized capacitance.

A ring input device, and more particularly to pressure-sensitive input mechanisms within the ring input device that detect pressure to initiate an operation, is disclosed. Because finger rings are often small and routinely worn, electronic finger rings can be employed as unobtrusive communication devices that are readily available to communicate wirelessly with other devices capable of receiving those communications. Ring input devices according to examples of the disclosure can detect press inputs on its band to generate inputs that can then be wirelessly communicated to companion devices.

A touch sensing device includes: a force sensing unit including a sensing coil; and a metal portion. At least a portion of the metal portion is in contact with the force sensing unit, and the touch sensing device is configured such that a region of the metal portion overlapping with the sensing coil changes in response to a touch being applied to the touch sensing device.